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1.
Treatment of [Ru(CHR)Cl2(PCy3)2] (Cy = cyclohexyl) with Tl[N(Pr2iPO)2] and AgLOEt (LOEt = [CpCo{P(O)(OEt)2}3]) afforded the Ru carbene complexes [Ru(CHPh)(PCy3)Cl{N(Pr2iPO)2}] (1) and [LOEtRu(CHR)(PCy3)Cl] (2), respectively. Chloride abstraction of complex 2 with TlPF6 in MeCN afforded [LOEtRu(CHPh)(PCy3)(MeCN)][PF6] (3). Complexes 1 and 2 are capable of catalyzing ring-closing metathesis of diethyl 1,2-diallylmalonate. The crystal structure of complex 2 has been determined.  相似文献   

2.
Reaction of the doubly bridged dinuclear molybdenum complex (Me2C)(Me2Si)[(η5-C5H3)Mo(CO)3]2 (1) with benzonitrile in refluxing xylene afforded complexes (Me2C)(Me2Si)[(η5-C5H3)2Mo2(CO)4(μ-η22(⊥)-NCPh)] (2) (50%) and (Me2C)(Me2Si)[(η5-C5H3)2Mo2(CO)4(μ-η12-NCPh)] (3) (6%) with different coordination of nitrile. The corresponding μ-η22 acetonitrile and propionitrile complexes 4 and 5 could be obtained from the reactions of (Me2C)(Me2Si)(C5H4)2 with (RCN)3Mo(CO)3 (R = Me, Et) in refluxing xylene. Reactions of 1 with isonitriles generated μ-η12-CNR (R = tBu, Ph, C6H11) bridged complexes 6-8 in 53-63% yields. Subsequent reaction of 4 with Ru3(CO)12 yielded two CN bond cleavaged MoRu clusters (Me2C)(Me2Si)(η5-C5H3)2Mo2Ru3(CO)10(μ-CO)(μ3-CMe)(μ4-N) (9) (7%) and [(Me2C)(Me2Si)(η5-C5H3)2]2Mo4Ru6(CO)16(μ-CO)(μ4-CO)23122-NCMe)(μ3-CMe)(μ5-N) (10) (8%). All the new complexes have been fully characterized. The molecular structures of 2, 4, 6, 9, and 10 have been determined by X-ray diffraction analysis.  相似文献   

3.
Phosphorus hydrazides PhP(O)[N(Me)NH2]2, (S)P[N(Me)NH2]3, and N3P3[N(Me)NH2]6 were condensed with 7-diethylaminocoumarin-3-aldehyde (RCHO) to afford the corresponding hydrazones PhP(O)[N(Me)NCHR]2 (1), (S)P[N(Me)NCHR]3 (2), and N3P3[N(Me)NCHR]6 (3). The structural characterization of 1-3 was carried out by their HRMS, 1H and 31P{1H} NMR spectra. The molecular structure of 2 was established by a single-crystal X-ray analysis. Interaction of 1 and 2 with various transition metal ions revealed substantial fluorescence enhancement upon interaction with Cu2+ enabling a selective detection mechanism for this metal ion. However, such a fluorescence enhancement was not observed in the case of 3. A 1:1 complex [2·Zn][ClO4]2·4CH2Cl2 was isolated in the reaction of 2 with Zn(ClO4)2·6H2O. The molecular structure of this complex revealed that the ZnII is encapsulated by the ligand utilizing a 3N, 3O coordination set.  相似文献   

4.
5.
Reaction of N-(2′-hydroxyphenyl)-4-R-benzaldimines (L-R, R = OCH3, CH3, H, Cl and NO2) with [Os(PPh3)3Br2] in refluxing 2-methoxyethanol in the presence of triethylamine affords two families of organoosmium complexes (1-R and 2-R). In both 1-R and 2-R complexes a benzaldimine ligand is coordinated to the metal center as tridentate C,N,O-donor. In the 1-R complexes, a bidentate N,O-donor imionsemiquinonate ligand, derived from the hydrolysis of another benzaldimine, and a PPh3 ligand are also coordinated to osmium. In the 2-R complexes, a carbonyl, derived from decarbonylation of 4-R-benzaldehyde (derived from the same hydrolysis stated above), and two PPh3 ligands take up the remaining coordination sites on osmium. Structures of the 1-Cl and 2-OCH3 complexes have been determined by X-ray crystallography. All the 1-R and 2-R complexes are diamagnetic, and show characteristic 1H NMR signals and intense MLCT transitions in the visible region. Cyclic voltammetry on the 1-R complexes shows a reversible Os(III)-Os(IV) oxidation within 0.47-0.67 V (vs SCE), followed by an irreversible oxidation of the imionsemiquinonate ligand within 1.10-1.36 V. An irreversible Os(III)-Os(II) reduction is also displayed by the 1-R complexes within −1.02 to −1.14 V. Cyclic voltammetry on the 2-R complexes shows a reversible Os(II)-Os(III) oxidation within 0.29-0.51 V, followed by a quasi-reversible oxidation within 1.04-1.29 V, and an irreversible reduction of the coordinated benzaldimine ligand within −1.16 to −1.31 V.  相似文献   

6.
Treatment of N-methylimidazole with pentafluorobenzyl bromide produces 1-pentafluorobenzyl-3-methylimidazolium bromide (1), which reacts with silver(I) oxide to give the N-heterocycle carbene (NHC) complex 1-pentafluorobenzyl-3-methylimidazolin-2-ylidene silver(I) bromide (2). Complex 2 acts as a carbene transfer reagent giving the complexes [(η5-C5Me5)MCl2(NHC)] (3a, M = Rh; 3b M = Ir) on reaction with [(η5-C5Me5)MCl(μ-Cl)]2. An attempt to use intramolecular dehydrofluorinative coupling methodology to link the carbene and the pentamethylcyclopentadienyl ligands of [(η5-C5Me5)RhCl(CNtBu)(NHC)]BF4 was unsuccessful.  相似文献   

7.
8.
Thermal treatment of C9H7SiMe2C9H7 and C9H7Me2SiOSiMe2C9H7 with Ru3(CO)12 in refluxing xylene gave the corresponding diruthenium complexes (E)[(η5-C9H6)Ru(CO)]2(μ-CO)2 [E = Me2Si (1), Me2SiOSiMe2 (2)]. A desilylation product [(η5-C9H7)Ru(CO)]2(μ-CO)2 (3) was also obtained in the latter case. Similar treatment of C9H7Me2SiSiMe2C9H7 with Ru3(CO)12 gave a novel indenyl nonanuclear ruthenium cluster Ru96-C)(CO)143522-C9H7)2 (5) with carbon-centered tricapped trigonal prism geometry, in addition to the diruthenium complex (Me2SiSiMe2)[(η5-C9H6)Ru(CO)]2(μ-CO)2 (4) and the desilylation product 3. Complex 4 can undergo a thermal rearrangement to form the product [(Me2Si)(η5-C9H6)Ru(CO)2]2 (6). The molecular structures of 1, 2, 4, 5, and 6 were determined by X-ray diffraction.  相似文献   

9.
Potassium dichlorido(l-prolinato)platinate(II), K[PtCl2(l-proH)] (1), and chlorido(dimethyl sulfoxide)(l-prolinato)platinum(II), [PtCl(l-proH)(dmso)] (2), were synthesized by ligand substitution reactions. Both complexes were characterized by 1H, 13C, and 195Pt NMR spectroscopy, elemental analysis, and HR-ESI-MS. The molecular structures of 1 and 2 were determined by single crystal X-ray diffraction, proving bidentate coordinated l-prolinato ligand and SP-4-4 configuration of 2a. With the help of DFT calculations stability of possible isomers of 1 and 2 was studied. A considerable difference in the in vitro cytotoxicity of 1 versus 2a (exchange of one chlorido ligand by dmso) against four human cancer cell lines was found.  相似文献   

10.
An approach to the synthesis of nitronyl nitroxide 2,2′-(buta-1,3-diyne-1,4-diyl)bis(4,4,5,5-tetramethyl-4,5-dihydro-1H-imidazole 3-oxide 1-oxyl) (4) was developed. Compound 4 is the first diradical with nitronyl nitroxide groups directly linked through a diacetylene fragment. In solid phase the diradicals are arranged in stacks with parallel CC fragments, with the distances between the terminal carbon atoms of the neighboring diacetylene groups (T and d) being 6.170 and 4.466 Å, respectively, and the angle between the translation vector and the median line passing through the CCCC fragment of 45.9°. The values of T and d are outside the range of structural criteria allowing a topochemical reaction. Thus UV irradiation does not initiate solid phase polymerization of 4. After exposure at 373 K for 1 h the crystals of 4 turn dark-brown, become X-ray amorphous and lose the majority of their paramagnetic centers without significantly changing their mass. Upon further heating up to 400-420 K the product explodes, releasing about 360 kJ/mol of heat. A diluted solution of 4 in 1,4-dioxane produces an EPR spectrum typical of a strong exchange (a multiplet of nine broadened lines with A4N = 0.35 mT), indicating the efficiency of the CCCC fragment as an exchange channel. The character of the experimental μeff(T) dependence for 4 indicates a strong intramolecular antiferromagnetic-type exchange interaction (J/kB ∼ −104 K) and the dominating weak intermolecular ferromagnetic exchange.  相似文献   

11.
A study of the reactivity of enantiopure ferrocenylimine (SC)-[FcCHN-CH(Me)(Ph)] {Fc =  (η5-C5H5)Fe{(η5-C5H4)-} (1a) with palladium(II)-allyl complexes [Pd(η3-1R1,3R2-C3H3)(μ-Cl)]2 {R1 = H and R2 = H (2), Ph (3) or R1 = R2 = Ph (4)} is reported. Treatment of 1a with 2 or 3 {in a molar ratio Pd(II):1a = 1} in CH2Cl2 at 298 K produced [Pd(η3-3R2-C3H4){FcCHN-CH(Me)(Ph)}Cl] {R2 = H (5a) or Ph (6a)}. When the reaction was carried out under identical experimental conditions using complex 4 as starting material no evidence for the formation of [Pd(η3-1,3-Ph2-C3H3){FcCHN-CH(Me)(Ph)}Cl] (7a) was found. Additional studies on the reactivity of (SC)-[FcCHN-CH(R3)(CH2OH)] {R3 = Me (1b) or CHMe2 (1c)} with complex 4 showed the importance of the bulk of the substituents on the palladium(II) allyl-complex (2-4) or on the ferrocenylimines (1) in this type of reaction. The crystal structure of 5a showed that: (a) the ferrocenylimine adopts an anti-(E) conformation and behaves as an N-donor ligand, (b) the chloride is in acis-arrangement to the nitrogen and (c) the allyl group binds to the palladium(II) in a η3-fashion. Solution NMR studies of 5a and 6a and [Pd(η3-1,3-Ph2-C3H3){FcCHN-CH(Me)(CH2OH)}Cl] (7b) revealed the coexistence of several isomers in solution. The stoichiometric reaction between 6a and sodium diethyl 2-methylmalonate reveals that the formation of the achiral linear trans-(E) isomer of Ph-CHCH-CH2Nu (8) was preferred over the branched derivative (9). A comparative study of the potential utility of ligand 1a, complex 5a and the amine (SC)-H2N-CH(Me)(Ph) (11) as catalysts in the allylic alkylation of (E)-3-phenyl-2-propenyl (cinnamyl) acetate with the nucleophile diethyl 2-methylmalonate (Nu) is reported.  相似文献   

12.
Treatment of 2-chloro-3,3-difluoroprop-2-en-1-ol derivatives (2) with methanesulfonyl chloride in the presence of a base did not give the expected esters but 2-chloro-1,1-difluoroprop-2-enyl methanesulfonates (4) through a novel [3,3] sigmatropic rearrangement. Reaction of 4 with diethylzinc in the presence of tetrakis(triphenylphosphine) palladium gave 1-alkyl- or 1-aryl-2-chloro-3-fluoropenta-1,3-dienes in moderate to good yields through a CC bond formation followed by dehydrofluorination.  相似文献   

13.
14.
15.
On reaction of different copper(II) salts with 3,4-bis(2-pyridylmethylthio)toluene (L) having neutral tetradentate NSSN donor set in different chemical environments, two mononuclear copper(II), one dinuclear copper(I) and one dinuclear copper(II) complexes, formulated as [CuII(L)(H2O)2](NO3)2 (1), [CuII(pic)2] (2), [CuI2(L)2](ClO4)2 (3) and [CuII2(L)2Cl2](ClO4)2 (4), respectively, were isolated in pure form [where pic = picolinate]. All the complexes were characterized by physicochemical and spectroscopic methods. The product of the reactions are dependent on the counter anion of copper(II) salts used as reactant and on the reaction medium. Complexes 1 and 4 were obtained with nitrate and perchlorate copper(II) salts, respectively. On the other hand, C–S bond cleavage was observed in the reaction of L with copper(II) chloride to form in situ picolinic acid and complex 2. Dinuclear complexes 3 and 4 were separated out when copper(II) perchlorate was allowed to react with L in methanol and in acetonitrile, respectively, under aerobic condition. The X-ray diffraction analysis of the dinuclear complex 3 shows a highly distorted tetrahedral geometry about each copper ion. Complex 4 is converted to 3 in acetonitrile in presence of catechol. The spectral study of complex 4 with calf thymus DNA is indicative of a groove binding mode interaction.  相似文献   

16.
17.
A series of copper(I) and silver(I) carboxylates received from various ferrocenecarboxylic acids was synthesized and used in the preparation of heterooligometallic Ti-Cu(Ag)-Fe complexes. The silver(I) salts [FcCO2Ag] (2a) and [FcCHCHCO2Ag] (2b) (Fc = ferrocenyl, (η5-C5H4)Fe(η5-C5H5)) were obtained through deprotonation of the respective acids FcCO2H (1a) and FcCHCHCO2H (1b) with NEt3, followed by a reaction with [AgNO3]. The heterotrimetallic complexes {[Ti](μ-σ,π-CCSiMe3)2}AgO2CFc (4a) and {[Ti](μ-σ,π-CCSiMe3)2}AgO2CCHCHFc (4b), where [Ti] denotes the (η5-C5H4SiMe3)2Ti unit, were obtained from the reaction of 2a and 2b with the organometallic π-tweezer compound [Ti](CCSiMe3)2 (3). The related heterotrimetallic copper(I) complex {[Ti](μ-σ,π-CCSiMe3)2}CuO2CFc (9a) was prepared via two synthetic routes. First, salt 2a was reacted with [(η2-Me3SiCCSiMe3)CuBr]2 (10) to give the alkyne-stabilized copper(I) carboxylate [(η2-Me3SiCCSiMe3)(CuO2CFc)2]2 (11). Subsequent reaction of 11 with four equivalents of 3 afforded 9a. Alternatively, 9a and its analogues {[Ti](μ-σ,π-CCSiMe3)2}CuO2C-E-Fc (E = trans-CHCH (9b), CH2CH2 (9c)), were prepared from acidolysis of the Cu-CMe bond in {[Ti](μ-σ,π-CCSiMe3)2}CuMe (8) with acids 1a-1c. An analogous reaction between HO2CfcPPh2M(CO)5 (M = Cr (14a), Mo (14b), W (14c); fc = ferrocene-1,1′-diyl) and 8 at−30 °C gave the alkyne/ferrocene-bridged heterotetrametallic compounds {[Ti](μ-σ,π-CCSiMe3)2}CuO2CfcPPh2M(CO)5 (M = Cr (15a), Mo (15b), W (15c)). Reversing the reaction steps so that {[Ti](μ-σ,π-CCSiMe3)2}CuO2CfcPPh2 (12) was prepared first and then reacted with M(CO)5(thf) (M = Cr (13a), Mo (13b), W (13a)) gave complicated reaction mixtures from which pure 15a-15c could not be isolated. The solid-state structures of 5, 7, 9a, and 11 have been corroborated by single-crystal X-ray structural studies and the electrochemical behavior of acids 1a-1c and of complexes 4a, 4b and 9a-9c was studied by cyclic voltammetry.  相似文献   

18.
3-Bromopyridine and 3-bromoquinoline on reaction with n-butyllithium give lithiated products which on reaction with dichloromethylvinylsilane and 1,2-dichlorodimethyldisilane at −78 °C result in the ligands bis(3-pyridyl)methylvinylsilane (L1) and 1,2-di(3-quinolyl)dimethyl disilane (L2). The complexation reactions of both these ligands with Ag(I), Pd(II) and Cu(II) have been explored. The 1H, 13C{1H} and 29Si{1H}NMR and IR spectra of both the ligands and their metal complexes have been found characteristic. The complex of L1 with silver(I), [Ag(L1)]ClO4 (1) gives suitable single crystals characterized by X-ray diffraction. Its structure consists of two dimensional sheets, having 25-membered metallamacrocycle ring, in which Ag has distorted tetrahedral geometry and is bonded to vinyl (η2) group. On reacting AgCF3SO3 with L1 and subjecting the single crystals of the resulting complex to X-ray diffraction it has been found that contrary to 1 there is no bond between vinyl group and silver, resulting in infinite molecular strands, in which coordination geometry of silver is distorted trigonal planar. anion acts as a bridge between two molecular strands through F?H (aromatic) and Ag?O secondary interactions. The Ag-C distances in 1 are 2.309(5) and 2.350(12) Å. The CC bond length does not exhibit significant change on bonding with silver in 1.  相似文献   

19.
20.
Schiff bases of 1′-hydroxy-2′-acetonaphthone (HAN) containing chalcogen functionalities, 1-HO-C10H6-2-CH3)CN-(CH2)nEC6H4-4-R (R = H or OMe; n = 2 or 3; E = S (L1-L2), Se (L3-L4) or Te (L5-L6)) have been synthesized in yield 90-95%. They show characteristic 1H, 13C{1H} 77Se{1H} and 125Te{1H} (in case of selenated and tellurated species, respectively) NMR spectra. Their complexation with Pd(II), Pt(II), Hg(II) and (p-cymene)Ru(II) has been explored. The single-crystal structures of ligands L1, L3 and L6 and complexes of Pd(II) with L1, L2, L3 and L5 have been determined. The geometry of Pd is close to square planar in all the complexes and the ligands coordinate in a uni-negative tridentate mode. The Pd-N bond lengths are in the range 1.996(7)-2.019(5) ?. The Pd-Se bond distance is 2.3600(5) ? whereas Pd-Te is 2.5025(7) ?. The Pd(II) complexes of L1-L5 have been found promising as homogeneous catalyst for Heck and Suzuki reactions. The yields obtained were up to 85%.  相似文献   

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